Mighty Light Tungsten Halogen (ML-TH) is a compact white light source that is highly effective in microscopy, spectroscopy, machine vision and spectral imaging applications. Main advantages of Mighty Light as a light source are 1) low-noise output 2) high stability 3) uniform circular aperture and 4) superior compatibility.
For detailed product specifications check out the ML products page or contact us at info@spectrolightinc.com.
The beam diameter of the base adaptor is 10mm and the divergence is around 64°. For optimal results we would recommend utilizing our collimator products.
For detailed information on applicability feel free to contact us at info@spectrolightinc.com.
FWS is a unique wavelength selection device that employs Spectrolight’s TwinFilm™ technology to deliver accurate tuning and adjustable bandwidth of a grating monochromator, together with the imaging advantages of a circular aperture filter.
Spectrolight developed TwinFilm™ technology to provide a simple and cost-effective means to filter light according to wavelength. This patented, next-generation technology provides a superior alternative to monochromators and AOTFs in fluorescence microscopy, hyperspectral imaging, machine vision and other applications.
TwinFilm™ delivers several key advantages. Like a grating-based device, the out of band extinction is very high (10-6). But, unlike a grating monochromator with a narrow slit geometry, the spectral performance of a TwinFilm™ device is uniform across 95% of the large (up to 10 mm diameter) clear aperture, which is ideal for spectral filtering in imaging applications, such as microscopes and machine vision systems. Plus, at 75% transmission, TwinFilm™ is much more efficient than diffraction based devices like gratings and AOTFs. And unlike an AOTF, there is no walk-off as wavelength is changed thanks to the offset correction optic. Economical, factory-set TwinFilm™ devices (Custom Wavelength Selectors) also make superior bandpass filters – they can be completely custom user specified, unlike the case of single bandpass filters, which often require expensive custom thin film design and volume fabrication in order to achieve the same level of performance.